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/*
* SCCS: @(#)sigtrap.c 1.5 (98/09/01)
*
* UniSoft Ltd., London, England
*
* (C) Copyright 1996 X/Open Company Limited
*
* All rights reserved. No part of this source code may be reproduced,
* stored in a retrieval system, or transmitted, in any form or by any
* means, electronic, mechanical, photocopying, recording or otherwise,
* except as stated in the end-user licence agreement, without the prior
* permission of the copyright owners.
* A copy of the end-user licence agreement is contained in the file
* Licence which accompanies this distribution.
*
* X/Open and the 'X' symbol are trademarks of X/Open Company Limited in
* the UK and other countries.
*/
#ifndef lint
static char sccsid[] = "@(#)sigtrap.c 1.5 (98/09/01) TET3 release 3.3";
#endif
/************************************************************************
SCCS: @(#)sigtrap.c 1.5 98/09/01 TETware release 3.3
NAME: sigtrap.c
PRODUCT: TETware
AUTHOR: Andrew Dingwall, UniSoft Ltd.
DATE CREATED: September 1996
DESCRIPTION:
tcc signal handling functions
MODIFICATIONS:
Andrew Dingwall, UniSoft Ltd., May 1997
corrected a bug in the WIN32 signal blocking emulation
Andrew Dingwall, UniSoft Ltd., March 1998
Arrange to interrupt looping directives on abort.
************************************************************************/
#include <stdio.h>
#include <sys/types.h>
#include <time.h>
#include <signal.h>
#include <errno.h>
# include <unistd.h>
#include "dtmac.h"
#include "error.h"
#include "ltoa.h"
#include "scentab.h"
#include "proctab.h"
#include "tcc.h"
#include "tcclib.h"
#ifdef NEEDsrcFile
static char srcFile[] = __FILE__; /* file name for error reporting */
#endif
/* signal dispositions on startup */
static void (*orig_sighup) PROTOLIST((int));
static void (*orig_sigquit) PROTOLIST((int));
static void (*orig_sigpipe) PROTOLIST((int));
static void (*orig_sigterm) PROTOLIST((int));
/* variables used by the WIN32 sigblock emulation */
/* static function declarations */
static int eng1_tcinterrupt PROTOLIST((struct proctab *));
static void engine_abort PROTOLIST((int));
static int engine_tcinterrupt PROTOLIST((int));
static void initial_sigtrap PROTOLIST((int));
static void (*install_handler PROTOLIST((int, void (*) PROTOLIST((int)))))
PROTOLIST((int));
static int quick_killtc PROTOLIST((struct proctab *));
static void engine_sigterm PROTOLIST((int));
static void exec_sigprocmask PROTOLIST((int));
# ifdef TET_LITE /* -LITE-CUT-LINE */
static void tes2 PROTOLIST((int, void (*) PROTOLIST((int))));
# endif /* TET_LITE */ /* -LITE-CUT-LINE */
/*
** initsigtrap() - install initial signal traps
*/
void initsigtrap()
{
orig_sighup = install_handler(SIGHUP, initial_sigtrap);
orig_sigquit = install_handler(SIGQUIT, initial_sigtrap);
orig_sigpipe = install_handler(SIGPIPE, initial_sigtrap);
orig_sigterm = install_handler(SIGTERM, initial_sigtrap);
}
/*
** initial_sigtrap() - signal handler for use before the execution
** engine starts up
*/
static void initial_sigtrap(sig)
int sig;
{
static char text[] = "TCC shutdown on signal";
if (jnl_usable())
(void) fprintf(stderr, "%s %d\n", text, sig);
fatal(0, text, tet_i2a(sig));
}
/*
** execsigtrap() - install signal traps for the execution engine
*/
void execsigtrap()
{
exec_block_signals();
(void) install_handler(SIGHUP, engine_sigterm);
(void) install_handler(SIGQUIT, engine_abort);
(void) install_handler(SIGPIPE, engine_sigterm);
(void) install_handler(SIGTERM, engine_sigterm);
}
/*
** exec_block_signals() - block signals while the execution engine
** turns over
*/
void exec_block_signals()
{
exec_sigprocmask(SIG_BLOCK);
}
void exec_unblock_signals()
{
exec_sigprocmask(SIG_UNBLOCK);
}
/*
** exec_sigprocmask() - block or unblock signals
*/
static void exec_sigprocmask(how)
int how;
{
sigset_t mask;
(void) sigemptyset(&mask);
(void) sigaddset(&mask, SIGHUP);
(void) sigaddset(&mask, SIGQUIT);
(void) sigaddset(&mask, SIGPIPE);
(void) sigaddset(&mask, SIGTERM);
if (sigprocmask(how, &mask, (sigset_t *) 0) < 0)
fatal(errno, "sigprocmask() failed: how =", tet_i2a(how));
}
/*
** engine_sigterm() - SIGHUP and SIGTERM signal handler for use once
** the execution engine is running
*/
static void engine_sigterm(sig)
int sig;
{
TRACE2(TET_MAX(tet_Ttcc, tet_Texec), 4, "engine_sigterm(): signal = %s",
tet_i2a(sig));
initial_sigtrap(sig);
}
/*
** engine_abort() - SIGQUIT (or SIGBREAK) signal handler for use once
** the execution engine is running
*/
static void engine_abort(sig)
int sig;
{
register struct proctab *prp;
(void) fprintf(stderr, "TCC: user abort called\n");
(void) fflush(stderr);
/*
** this flag tells the execution engine not to start processing
** any more test cases
*/
tcc_modes |= TCC_ABORT;
/* arrange to interrupt each directive on the run queue */
for (prp = runq; prp; prp = prp->pr_rqforw)
if (prp->pr_scen->sc_type == SC_DIRECTIVE)
prp->pr_modes |= TCC_ABORT;
/*
** tell the execution engine to interrupt all the currently
** running test cases; the combination of these two actions
** causes tcc to exit normally as soon as any currently running
** test cases have terminated and any save files and journal
** processing has completed
*/
(void) engine_tcinterrupt(sig);
}
/*
** engine_tcinterrupt() - tell the execution engine to interrupt all the
** currently running test case(s)
**
** return the number of test cases currently running
**
** this function is called from a signal handler, which itself
** should only be called while the execution engine is turning over
**
** note that the test cases are not actually interrupted until
** control returns to the execution engine
*/
#ifdef NOTRACE
/* ARGSUSED */
#endif
static int engine_tcinterrupt(sig)
int sig;
{
register struct proctab *prp;
register int count = 0;
TRACE2(TET_MAX(tet_Ttcc, tet_Texec), 4,
"engine_tcinterrupt(): signal = %s", tet_i2a(sig));
/* arrange to interrupt each testcase on the run queue */
for (prp = runq; prp; prp = prp->pr_rqforw)
if (prp->pr_scen->sc_type == SC_TESTCASE) {
prp->pr_modes |= TCC_ABORT;
if (prp->pr_state == PRS_WAIT) {
count++;
(void) RUN_PROCTABS(prp, eng1_tcinterrupt);
prp->pr_flags |= PRF_ATTENTION;
}
}
return(count);
}
/*
** eng1_tcinterrupt() - extend the engine_tcinterrupt() processing for a
** testcase or tool running on a single system
**
** always returns 0
*/
static int eng1_tcinterrupt(prp)
register struct proctab *prp;
{
TRACE3(TET_MAX(tet_Ttcc, tet_Texec), 6,
"eng1_tcinterrupt(%s): toolstate = %s",
tet_i2x(prp), prtoolstate(prp->pr_toolstate));
if (prp->pr_toolstate == PTS_RUNNING)
prp->pr_toolstate = PTS_ABORT;
return(0);
}
/*
** engine_shutdown() - kill left-over test cases and remove lock
** files when tcc is shutting down
**
** this function is called during tcc's orderly shutdown processing;
** control should not return to the execution engine after this
** function has been called
**
** when this function is called, there should only be left-over
** test cases and lock files if the shutdown is being performed
** under the control of a signal handler (eg: for SIGHUP or SIGTERM)
**
** since control is not returned to the execution engine, any pending
** save files and journal processing is not performed;
** also, test cases are not waited for - if a test case does not
** respond to SIGTERM, it is left running
** (however, in fully-featured TETware, when tcc logs off each tccd,
** tccd sends a SIGHUP to any left-over executed processes)
*/
void engine_shutdown()
{
register struct proctab *prp;
register int count = 0;
static int been_here = 0;
TRACE3(TET_MAX(tet_Ttcc, tet_Texec), 4,
"engine_shutdown(): been_here = %s, runq = %s",
tet_i2a(been_here), tet_i2x(runq));
/* guard against multiple calls and recursive calls */
if (been_here++) {
TRACE1(TET_MAX(tet_Ttcc, tet_Texec), 4,
"engine_shutdown() quick RETURN");
return;
}
/* kill each running testcase or tool */
for (prp = runq; prp; prp = prp->pr_rqforw)
if (prp->pr_scen->sc_type == SC_TESTCASE) {
count++;
(void) RUN_PROCTABS(prp, quick_killtc);
}
/* give the tools a chance to terminate */
if (count)
SLEEP(2);
/* remove lock files */
for (prp = runq; prp; prp = prp->pr_rqforw)
if (prp->pr_scen->sc_type == SC_TESTCASE)
switch (prp->pr_currmode) {
case TCC_BUILD:
case TCC_EXEC:
case TCC_CLEAN:
prp->pr_tcstate = TCS_END;
proc_testcase(prp);
break;
}
TRACE1(TET_MAX(tet_Ttcc, tet_Texec), 4,
"engine_shutdown() normal RETURN");
}
/*
** quick_killtc() - kill a test case or tool quickly on a single system
** without waiting for the tool to terminate or checking for
** errors
**
** always returns 0
*/
static int quick_killtc(prp)
struct proctab *prp;
{
TRACE3(TET_MAX(tet_Ttcc, tet_Texec), 6,
"quick_killtc(%s): toolstate = %s",
tet_i2x(prp), prtoolstate(prp->pr_toolstate));
if (prp->pr_toolstate == PTS_RUNNING) {
(void) tcc_kill(*prp->pr_sys, prp->pr_remid, SIGTERM);
prp->pr_toolstate = PTS_EXITED;
}
return(0);
}
/*
** install_handler() - install a signal handler
*/
static void (*install_handler(sig, func))()
int sig;
void (*func) PROTOLIST((int));
{
void (*rc) PROTOLIST((int));
struct sigaction sa;
if (sigaction(sig, (struct sigaction *) 0, &sa) < 0)
fatal(errno, "can't get disposition for signal", tet_i2a(sig));
if ((rc = sa.sa_handler) != SIG_IGN) {
sa.sa_handler = func;
sa.sa_flags = 0;
(void) sigemptyset(&sa.sa_mask);
if (sigaction(sig, &sa, (struct sigaction *) 0) < 0)
fatal(errno, "can't install handler for signal",
tet_i2a(sig));
}
return(rc);
}
# ifdef TET_LITE /* -LITE-CUT-LINE- */
/*
** tcc_exec_signals() - restore original signal dispositions
** in the child process before an exec
**
** this function is called from the tcclib function tcf_exec()
*/
void tcc_exec_signals()
{
tes2(SIGHUP, orig_sighup);
tes2(SIGQUIT, orig_sigquit);
tes2(SIGPIPE, orig_sigpipe);
tes2(SIGTERM, orig_sigterm);
}
/*
** tes2() - extend the tcc_exec_signals() processing for a
** single signal
*/
static void tes2(sig, func)
int sig;
void (*func) PROTOLIST((int));
{
struct sigaction sa;
/* ignore the signal */
sa.sa_handler = SIG_IGN;
sa.sa_flags = 0;
(void) sigemptyset(&sa.sa_mask);
if (sigaction(sig, &sa, (struct sigaction *) 0) < 0)
fatal(errno, "sigaction(SIG_IGN) failed for signal",
tet_i2a(sig));
/* unblock the signal */
(void) sigemptyset(&sa.sa_mask);
(void) sigaddset(&sa.sa_mask, sig);
if (sigprocmask(SIG_UNBLOCK, &sa.sa_mask, (sigset_t *) 0) < 0)
fatal(errno, "sigprocmask(SIG_UNBLOCK) failed for signal",
tet_i2a(sig));
/* restore the original signal disposition if not SIG_IGN */
if (func != SIG_IGN) {
sa.sa_handler = func;
sa.sa_flags = 0;
(void) sigemptyset(&sa.sa_mask);
if (sigaction(sig, &sa, (struct sigaction *) 0) < 0)
fatal(errno, "sigaction() failed for signal",
tet_i2a(sig));
}
}
# endif /* TET_LITE */ /* -LITE-CUT-LINE- */
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